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Covariant formulation of classical electromagnetism
Natural sciences
Physics
Electromagnetism
Electrodynamics
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Advanced Physics I: Introduction to Mechanics
Introduces the basics of physics, including mechanics and making predictions based on observations and hypotheses.
Covariance: Understanding the Concepts
Explores the concept of covariance, its meanings, and practical applications in tensor transformation laws.
Interaction of E-M Waves with Matter: Transmission, Absorption, Reflection
Explores how electromagnetic waves interact with matter, emphasizing transmission, absorption, and reflection.
Maxwell's Equations and E-M Waves in Matter
Explores the interaction between electromagnetic waves and matter, including polarization effects and energy conservation.
Introduction to Actuators
Introduces actuators, sensors integration, historical developments, innovative technologies, and the origins of magnetism and electricity.
Maxwell's Equations: Faraday and Ampère Laws
Covers Maxwell's equations in vacuum, focusing on Faraday's and Ampère's laws and the absence of sources.
Intensity: Light, Heat, and Energy Transport
Explores heat generation from light-matter interactions, energy transport through electromagnetic waves, and the concept of intensity.
Capacitance and Dielectrics: Understanding Maxwell's Equations
Explores the significance of mastering Maxwell's equations in modern technologies through a Q&A session on dielectrics and electric fields.
Dispersion Relation in Vacuum
Covers Maxwell's equations, unit systems, Fourier transform, and charge conservation with exercises on wave equations and dispersion relations.
Uniqueness of Electromagnetic Field
Delves into the conditions for the uniqueness of solutions to Maxwell's equations in different media and sources, emphasizing the role of boundary conditions and material losses.
